KR100470676B1 - Concrete composition using of bottom ash as replacement of aggregate for concrete mixing - Google Patents

Abstract

A concrete composition using bottom ash, a general waste generated in coal-fired power plants. As a result of analysis of physical and chemical components of bottom ash, bottom ash meets the requirements of aggregate as a construction material. In the concrete composition used by mixing water, cement, sand, gravel, etc. so as to have strength or durability that is almost equal to or greater than that of natural aggregate in terms of strength and durability, 15-30% by weight of cement, 20-40% by weight of bottom ash aggregate, a waste generated from thermal power plants as a substitute for sand, and 30-50% by weight of natural coarse aggregate, are prepared as gravel.

By using such concrete composition for concrete construction for civil engineering or building structure, it is possible not only to cope with the lack of construction materials due to the exhaustion of river aggregates, but also to prevent environmental pollution due to landfilling and to recycle waste. It can eliminate waste of resources and resources.

Description

CONCRETE COMPOSITION USING OF BOTTOM ASH AS REPLACEMENT OF AGGREGATE FOR CONCRETE MIXING}

The present invention is a ash ash bottom ash attached to a furnace wall, a superheater and a preheater in ash generated after burning coal in a coal-fired power plant as part of a method of replacing the natural or masonry aggregate, which is gradually being depleted, and falls on the boiler floor by its own weight. It relates to concrete mixing aggregates using bottom ash, and concrete that can be applied to concrete mixtures using bottom ash as an alternative material to recycle resources that are disposed of in landfills around power plants and to reduce the use of natural aggregates. It relates to a composition.

In general, coal ash generated as a by-product from coal-fired power plants is a residual mineral remaining after the combustion of organic combustible components of coal in a combustion furnace, and bottom ash (floor ash or low ash) discharged to the bottom of the combustion furnace. It is divided into fly ash (fly ash) discharged to the upper side together with combustion gas. Since these coal ashes are collected at different locations in the combustion facility, physical properties such as sintered state, density, and particle size are different.

Fly ash is a fine-sized particle of coal ash produced during the combustion process and is discharged through the combustion furnace together with the combustion gas. Generally, the fly ash is referred to as fly ash, because it accounts for 75 to 90% of the total coal ash generated. . The quality of fly ash is improved with the improvement of power generation facilities, and its recycling rate is gradually increasing to 32.2% in 1998 and 42.5% in 1999, and more than 90% is used as concrete admixture and cement raw material.

On the other hand, the bottom ash is a particle formed by the sintering in the combustion furnace to fall to the lower part of the boiler to crush the solidified material to a particle size of 25mm or less using a grinder. Generally, the bottom ash crushed by the grinder has a particle size range of about 1 to 10 mm and is also called a clinker ash or bad ash. This bottom ash generates about 10-15% of the total ash production.

Usually, these coal ashes, which are by-products of coal-fired power plants, were treated mainly at the coal ash processing plant (company head) installed at the point where environmental preservation and resource recycling were emphasized. In the past, when the utilization of land was high, it was rather easy to process, but it is relatively difficult to find a manager who needs three to four times the size of the power plant facilities due to the rapid increase in factory land and land price due to the recent high economic growth rate. The reality is getting harder.

  Therefore, fly ash has been used in various fields such as cement admixtures, landfills, land improvement materials, lightweight aggregates, etc., as a result of steady research in various research institutes and academia. Furnaces are active, accounting for about 90% of the total recycling rate.

An example of using the bottom ash as an aggregate is to replace a part of natural and artificial aggregates (Korean Patent Publication No. 97-074706), or to use a part of the bottom ash of a thermal power plant in the manufacture of lightweight building materials (Korea Patent Publication) Published Publication No. 97-061815) and fly ash, gypsum, calcium carbonate and lime and the like extruded at high pressure to produce a brick product (US Patent No. 5,358,760).

However, in most cases of bottom ash, it is simply landfilled at the company site near the power plant, mixed with fly ash inland or coastal landfill, and used in small amounts as roadbed soil material around the power plant. Therefore, as a main material causing the problem of environmental pollution, as well as the difficulty of securing the processed paper, the treatment thereof has become a problem.

Looking at the main status of aggregate used as a component of domestic concrete, river aggregates accounted for more than 90% until the early 1980s, and the main source of aggregate was river or river. However, river aggregates have been used for a long time, and it is not only difficult to obtain high-quality river aggregates by limiting the collection of aggregates in order to maintain and protect the rivers, but also gradually exhausting them. to be. Recently, as a countermeasure against this, crushed aggregate, sea sand, concrete waste materials, etc. are already in use, and in addition, the use of artificial aggregates and blast furnace slag aggregates has been actively examined and activated.

Therefore, in light of the trend of depletion of natural aggregates, the inventors of the present invention efficiently utilize resources in addition to solving environmental problems caused by landfilling of waste materials if bottom ash generated in thermal power plants and currently disposed of landfills is used as concrete aggregates. Considering that it will be of great significance in terms of use, the application of bottom ash as concrete aggregate was examined.

The bottom ash has a structural feature similar to sand because the particles are formed by rapid cooling or artificial pulverization after collection, and is made of porous particles to reduce the weight of the structure.

In recent years, structures are becoming larger and higher in size, and as a result, the weight of the structure is increased, causing problems such as ground subsidence. From this point of view, if bottom ash is used as a substitute for aggregate in concrete, its value will be very high.

The present inventors use the same as the existing products using natural aggregates using the bottom ash screened by the total aggregate specifications instead of fine aggregates (2.5 mm or less) and coarse aggregates (25 mm or less) of natural or stone aggregates used in the concrete composition. Concrete products have been developed that exhibit better physical properties.

That is, the present inventors conducted extensive research in terms of having the same or superior physical properties as conventional ready-mixed concrete products by using bottom ash (selected by aggregate specifications) generated in coal-fired power plants as a substitute for conventional natural and masonry aggregates. As a result, the present invention was accomplished by confirming that almost the same strength and durability as the existing concrete composition were secured even in the bottom ash concrete used in place of the coarse aggregate, which is the coarse aggregate and the coarse aggregate of natural aggregate.

In particular, in terms of strength, it was confirmed that there was a strength synergistic effect due to the absorption effect of aggregate at the same water-cement ratio. In addition, it was confirmed that the amount of air had almost the same result as the case of using general natural aggregate, and had little effect on the freeze-thawing resistance of concrete. It turned out to be advantageous.

The amount of water-reducing agent should be increased more than the case of using general natural aggregates, unless the amount of compounding is added to obtain the slump needed to secure workability. In cm ² ), it was confirmed that there is no problem in securing the strength of this range because the mixing water is contained in the bottom ash due to the absorption effect of the bottom ash aggregate even though the water is slightly watered than when using the general aggregate.

An object of the present invention is to provide a concrete composition using a bottom ash that can be recycled resources currently being disposed of landfills around the power plant by applying the bottom ash as a substitute for concrete mixing.

Another object of the present invention is to apply a bottom ash to concrete to provide a concrete composition using a bottom ash having almost the same strength or durability as the concrete using a natural aggregate in terms of strength or durability.

Another object of the present invention is to provide a concrete composition using a bottom ash that can effectively cope with the shortage of construction materials due to the exhaustion of river aggregate by applying the bottom ash to concrete.

Still another object of the present invention is to provide a concrete composition which can be applied to structural and non-structural materials of buildings, which are becoming increasingly high in weight and low in aggregate cost compared to existing products.

Concrete composition of the present invention for achieving the above object is a concrete composition using a mixture of water, cement, sand, gravel, etc., the constituents of the concrete composition is 15 to 30% by weight of the cement, as a substitute for the sand 20 to 40% by weight of bottom ash fine aggregate having a particle diameter of 2.5 mm or less, which is generated from a thermal power plant, and 30 to 50% by weight of natural coarse aggregate as the gravel.

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In addition, in the concrete composition according to the present invention, the particle size of the natural coarse aggregate is characterized in that 25 mm or less.

In addition, the concrete composition of the present invention for achieving the above object is a concrete composition used by mixing water, cement, sand, gravel, etc., the constituents of the concrete composition is 15 to 30% by weight of the cement, the sand 20 It is characterized by consisting of 30 to 50% by weight of the bottom ash coarse aggregate having a particle diameter of 25 mm or less, which is waste generated from a thermal power plant as a substitute for gravel.

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In addition, the concrete composition of the present invention for achieving the above object is a concrete composition using a mixture of water, cement, sand, gravel, water reducing agent and fluidizing agent, etc., wherein the mixing of the concrete composition is 17 to 28% by weight of the cement 20 to 35% by weight of bottom ash fine aggregate having a particle diameter of 2.5 mm or less, which is a waste generated from a thermal power plant as a substitute for sand, and a thick aggregate of bottom ash having a particle size of 25 mm or less, which is a waste generated from a thermal power plant as a substitute for gravel, 30 to 30 It is characterized by consisting of 45% by weight, 5 to 10% by weight stone dust.

Moreover, the concrete composition which concerns on this invention WHEREIN: It is characterized by adding the water reducing agent and the fluidizing agent of 0.2 to 1.0% of the said cement composition to mix | blending the said concrete composition.

Hereinafter, embodiments of the present invention will be described so that those skilled in the art can easily carry out the present invention.

First, in order for the bottom ash to be used as aggregate for concrete, it should have appropriate weight according to the appropriate hardness and use, not physically and chemically harmful, the shape of the cube should be close to a cube or a circle, and the cement paste and the adhesive strength should be large. General characteristics required for aggregates, such as clean, clean and free of harmful substances, should be satisfied.

Therefore, first, the physical and chemical properties were examined to determine whether the bottom ash can be used as aggregate.

The particle size distribution of the bottom ash, which is a general waste generated from river sand and thermal power plants, has been found to be a little out of the range specified by the Korean Industrial Standards. When used in combination with sand), it was found that there was no problem because the fine powder could be secured.

That is, the particle size distribution of the bottom ash occupies 50% of particles having a particle size of 0.1-1 mm and 50% of particles of 1 mm or more, so that it can be utilized as fine aggregate or coarse aggregate when the particle size is mixed with steel sand or gravel. Can be. However, it is a disadvantage that there are a few fines compared to general fine aggregates, which is generated by the considerable amount of fines being washed by seawater in the process of cooling bottom ash. When bottom ash is activated as a recycling industrial by-product, the bottom ash discharged is large. If the spilled water tank and sprinkling with fresh water to prevent the loss of fines will not cause problems due to the lack of fines.

In addition, by adjusting the amount of the bottom ash at the time of blending, there is no problem even if it is used in combination with an appropriate amount of natural aggregate, or if the entire amount is used as a substitute for sand or gravel.

The granular shape is a factor that greatly affects the workability of concrete. The closer to the circle or cube, the smaller the unit quantity and the better the workability.

In addition, the S.E.M analysis of the bottom ash sample was performed to investigate the characteristics of the shape, and the shape of the shape which was almost circular was confirmed. That is, since bottom ash is generally circular in shape, the improvement of concrete workability is greater than the case where mixed crushed sand (cracked sand), which is currently used due to lack of steel sand, is mixed.

Unburned carbon contained in the aggregate acts as a detrimental factor to increase the amount of water reducing agent or AE agent in order to obtain the required effect when mixing concrete, so the lower the content, the more economically concrete production is possible. In addition, since the unburned carbon powder contained in the bottom ash is maintained in a chemically stable state, it was confirmed through experiments that the unburned carbon content does not affect the inhalation of the chemical admixture even when compared with natural aggregates. .

In particular, in terms of strength, the absorption effect of aggregate (bottom ash) at the same water / cement ratio was confirmed to have a synergistic effect, and the air content showed almost the same results as general natural and masonry aggregates, affecting freezing and melting resistance. It was confirmed that it did not reach.

In addition, when looking at the stability of the aggregate, since the bottom ash contains a lot of voids inside, it is immersed in water for 24 hours, and the absorption rate is determined by about 6% in the bottom ash of 5mm or less and about 8% in the 5 ~ 13mm aggregate. It became. At this level of absorption, water is absorbed when concrete is mixed, and the degree of absorption affects the properties of concrete. Therefore, in order to maintain more stable concrete properties, it is necessary to use a so-called pre-wetting method used in a state where water is sufficiently absorbed in the bottom ash aggregate in advance.

Table 1 compares the properties of bottom ash and general aggregates (KS F2526, 2527) .The bottom ash is lighter and has a higher absorption rate than general aggregates. Large particles (15mm or more) have a disadvantage in that durability deteriorates due to partial deterioration when water in the pores freezes and thaws in the freezing and melting test, but if it is not sufficiently absorbed, the degree of deterioration due to freezing and melting is not great and curing in water It is a technical feature of the present invention that the sample is shown to have little effect.

Table 1. Comparison of Properties of Bottom Ash and General Aggregate

      Type Specifications Coarse aggregate Fine aggregate General aggregate Bottom ash General aggregate Bottom ash importance 2.5 or more 2.0 or less 2.5 or more 2.0 or less Absorption rate 3.0% or less 8.0% or less 3.0% or less 6.0% or less Wear rate 40% 40% - - stability 12% 10% below 10 below 10 0.08mm sieve passage 1.0% or less 1.0% or less 3.0% or less (crushed aggregate 7.0% or less) 3.0% or less Alkali aggregate reaction Harmless Harmless Harmless Harmless Chloride (NaCl) - - 0.04% or less 0.04% or less

In addition, the bottom ash analysis showed that the chemical composition did not contain harmful components in concrete, and the results were very similar to those of fly ash. This indicates that the main ash of the bottom ash is mainly composed of Al ₆ SiO ₁₃ and SiO ₂ , like fly ash, together with 12 to 18% of unburned coal powder.

That is, the present inventors evaluated the bottom ash through physical and chemical analysis, and it was confirmed that there is no problem in using it as a construction material.

Finally, the bottom ash was used as the aggregate for concrete mixing, and it was evaluated whether the material had a harmful effect on the quality assurance, such as the strength and durability of concrete, when it was mixed in concrete.

First, the concrete composition of the present invention is used in the composition using a mixture of water, cement, sand, gravel, water reducing agent, bottom ash (grain aggregate, coarse aggregate) and the like in the concrete mixing strength range of 100 ~ 400㎏ / ㎠, Bottom ash (coarse aggregate, coarse aggregate) generated from coal-fired power plants as sand and aggregate substitute is supposed to be added up to 100% of aggregate unit.

In addition, in the concrete composition according to the present invention, the particle size of the bottom ash is 2.5 mm or less (fine aggregate) to 100% as a substitute for sand, and the particle size of the bottom ash is 25 mm or less (coarse aggregate). Up to 100% was added as aggregate substitute.

In addition, in the concrete composition according to the present invention, the constituents of the concrete composition are 15 to 30 wt% of cement, 20 to 35 wt% of concrete fine aggregate (2.5 mm or less), 30 to 45 wt% of coarse aggregate (25 mm or less), stone powder (Waste generated in the production of crushed aggregates) 5 to 10% by weight, 0.2 to 1.0% of the fluidizing agent and water reducing agent (addition amount to cement weight).

Table 2 shows the chemical composition of bottom ash and stone powder, and it is judged that there is no problem of environmental pollution because the content of harmful heavy metal is extremely small.

Table 2. Chemical Composition of Bottom Ash and Stone Flour

     Ingredient Type CaO Al ₂ O ₃ SiO ₂ MgO Fe ₂ O ₃ K ₂ O Na ₂ O TiO ₂ SO ₃ Pb CD Cu Bottom ash 0.83 28.90 52.20 0.30 9.77 1.38 0.35 1.98 - ND ND 10 ^-3 Stone powder 1.65 17.20 59.20 0.98 2.64 5.38 1.87 0.28 0.50 10 ^-2 ND 10 ^-3

Next, the specific content of the present invention will be described through examples.

Table 3 shows the results of general ready-mixed concrete preparation using bottom ash as an aggregate.

As can be seen from this table, Comparative Example (KS F 4009) is a compounding ratio of general ready-mixed concrete, the slump value is about 12 cm, and the 28-day compressive strength is about 263 kg / cm 2.

On the other hand, Examples 1 to 6 are concrete compositions (17 to 18% by weight of cement, W / C 0.55 to 0.60) that use bottom ash as a part of natural aggregate, and have a slump value of about 12 to 18 cm and 28 days of compression. The strength is 270-278 kg / cm <2> similar to the case of the general ready-mixed concrete mix ratio of a comparative example.

Next, Examples 7 to 11 are concrete compositions (17 to 28 wt% of cement, 20 to 35 wt% of bottom ash fine aggregate, 30 to 45 wt% of bottom ash coarse aggregate, using a total amount of bottom ash as a substitute for natural aggregates in a general ready mix ratio) 5 to 10% by weight of stone powder), the slump value is about 12 to 18 cm and the compressive strength is 28 to 310 kg / cm 2, which is higher than that of Examples 1 to 6.

Table 3. Concrete composition and physical properties using general ready-mixed concrete and bottom ash

division Material used and compounding ratio (㎏ / ㎥) Slump cm Compressive strength (㎏ / ㎠) cement Janba Bold BA sand Natural aggregate Stone powder Admixture (%) S / A (%) W / C (%) 3 days 7 days 28 days Comparative example 343 - - 793 939 - 0.2 45.8 50.8 12 123 186 263 Example 1 343 713 - - 939 0.2 43.2 50.8 12 126 183 275 Example 2 354 711 - - 916 0.21 43.7 50.8 15 120 180 271 Example 3 366 707 - - 894 0.21 44.2 50.8 18 118 178 270 Example 4 343 - 930 793 - 0.2 46.0 50.8 12 125 184 278 Example 5 354 - 910 780 - 0.23 46.1 50.8 15 122 181 274 Example 6 366 - 880 720 - 0.28 45.0 50.8 18 123 179 272 Example 7 343 629 850 - - 127 0.36 42.5 52 12 168 232 315 Example 8 354 630 840 - - 126 0.35 42.8 52.5 15 163 227 318 Example 9 366 622 830 - - 124 0.3 42.8 52.5 18 161 225 310 Example 10 436 480 842 140 0.32 36.3 50 15 249 277 385 Example 11 550 477 836 129 0.32 36.3 47 15 282 340 412

Fine bottom ash (small BA) = 2.5 mm or less, thick bottom ash (coarse BA) = 25 mm or less, natural aggregate = concrete aggregates crushed aggregate 25 mm or less, sand = natural aggregate

* Admixture (additional amount of power cone-1000) = weight% based on the amount of cement, Examples 1 to 11 = general mixed concrete application

In summary, even if the bottom ash is used instead of natural and crushed aggregate in the concrete composition, it can be seen that the compressive strength value is similar to or higher than that of the existing product.

Therefore, it was confirmed that the bottom ash, which has been discarded in the past, can be used as aggregate for general ready-mixed concrete compositions or general concrete brick products.

As mentioned above, although the invention made by this inventor was demonstrated concretely according to the said Example, this invention is not limited to the said Example and can be variously changed in the range which does not deviate from the summary.

As described above, according to the concrete composition using the bottom ash of the present invention, it is a kind of coal-fired power plant that has been discarded so far as a substitute for natural aggregates that are gradually exhausted or artificial aggregates that cause environmental pollution or natural damage. By constructing a concrete composition using bottom ash as an aggregate, the effect of reducing the production cost and providing a concrete product having a compressive strength similar to or higher than that of the existing product is obtained.

In addition, according to the concrete composition using the bottom ash of the present invention, by using the material as a substitute for the aggregate of the concrete, as well as solving the problems caused by aggregate depletion as well as contributing to the environmental preservation by utilizing the waste that is disposed of landfill as construction resources Effect is obtained.

Claims (7)

In the concrete composition used by mixing water, cement, sand, gravel, etc., The composition of the concrete composition is 15 to 30% by weight of the cement, 20 to 40% by weight of bottom ash fine aggregate having a particle diameter of 2.5 mm or less, which is waste generated from a thermal power plant as an alternative to the sand, and 30 to 50 of natural coarse aggregate as the gravel. Concrete composition using a bottom ash, characterized in that consisting of% by weight. delete The method of claim 1, The natural coarse aggregate particle size is concrete composition using the bottom ash, characterized in that less than 25mm. In the concrete composition used by mixing water, cement, sand, gravel, etc., The composition of the concrete composition is 15 to 30% by weight of the cement, 20 to 40% by weight of the sand, 30 to 50% by weight of the bottom ash coarse aggregate having a particle diameter of 25 mm or less, which is waste generated from a thermal power plant as a substitute for the gravel. Concrete composition using a bottom ash, characterized in that made. delete In the concrete composition used by mixing water, cement, sand, gravel, water reducing agent and fluidizing agent, 17 to 28% by weight of the concrete composition, 20 to 35% by weight of bottom ash fine aggregate having a particle diameter of 2.5 mm or less, which is waste generated in thermal power plants as a substitute for the sand, and generated in thermal power plants as a substitute for gravel A bottom ash coarse aggregate having a particle size of 25 mm or less, which is waste, and a concrete composition using a bottom ash, characterized by consisting of 5 to 10% by weight of stone powder. The method of claim 6, A concrete composition using a bottom ash, characterized in that 0.2 to 1.0% of a cement reducing agent and a fluidizing agent are added to the concrete composition.